Abstract

Background

The majority of research on HIV/AIDS and mental health has been carried out among clinical populations: the time of onset of comorbid depression and the mechanisms for this are therefore unclear. Although there is evidence to suggest that asymptomatic people living with HIV/AIDS exhibit some cognitive deficits, the prevalence of poor cognitive functioning among people in low income settings at an early, pre-clinical stage has not yet been investigated.

Methods

We used a cross-sectional survey design to test the hypotheses that symptoms of Common Mental Disorder (CMD) and low scores on cognitive tests would be associated with seropositivity among participants coming for testing for HIV/AIDS. Participants were recruited at the time of coming for testing for HIV/AIDS; voluntary informed consent was sought for participation in research interviews and data linkage with HIV test results. Baseline questionnaires including sociodemographic variables and measures of mental health (PHQ-9, GAD-7, panic disorder questions, AUDIT and delayed word list learning and recall and animal naming test of verbal fluency) were administered by trained interviews. HIV status data was extracted from clinical records.

Results

CMD and scoring below the educational norm on the test of verbal fluency were associated with testing positive for HIV/AIDS in bivariate analysis (OR = 2.26, 1.31-3.93; OR = 1.77, 1.26-2.48, respectively). After controlling for the effects of confounders, the association between CMD and seropositivity was no longer statistically significant (AOR = 1.56, 0.86-2.85). After adjusting for the effects of confounders, the association between low scores on the test of verbal fluency and seropositivity was retained (AOR = 1.77, 1.27-2.48).

Conclusions

Our findings provide tentative evidence to suggest that low cognitive test scores (and possibly depressive symptoms) may be associated with HIV status among people who have yet to receive their HIV test results. Impaired cognitive functioning and depression-like symptoms may be the result of the same underlying neurological damage. CMD and cognitive impairment may overlap to a greater extent than previously assumed. If replicated, this may have implications for the way in which we measure and treat CMD and cognitive functioning among people living with HIV/AIDS.

Background

High levels of common mental disorder have been identified among people living with HIV/AIDS in communities around the world [1–5], including in India [6]. There is evidence from low and middle income and high income settings that Common Mental Disorders (CMD) such as depression have an adverse impact upon adherence [7–9], as well as additional negative effects upon HIV-related clinical outcomes such as disease progression and survival, that are independent of the effects of common mental disorder upon adherence [10, 11]. Neurocognitive impairment usually thought to be due to HIV-related damage to the frontostriatal region of the brain is generally found to occur among 20–37 percent of people living with HIV/AIDS [12] and is associated with HIV-associated dementia, disease severity [13], mortality [14], adherence to antiretroviral therapy [15] and employment [16]. The precise mechanisms for the high prevalence of comorbid neurocognitive impairment with HIV/AIDS are not well understood but recent studies have found reduced subcortical volumes and metabolite abnormalities among HIV-positive participants on cART [17].

Although diagnosis and life events related to diagnosis and disclosure undoubtedly contribute to the poor mental health of people living with HIV/AIDS [18, 19], there is evidence to suggest that the presence of HIV in the brain may also play a role in producing depression-like symptoms [20]. The majority of research on HIV/AIDS and mental health has been carried out among clinical populations: the time of onset of comorbid depression and the mechanisms for this are therefore unclear. Although there is evidence to suggest that asymptomatic people living with HIV/AIDS exhibit some cognitive deficits [21], the prevalence of poor cognitive functioning among people in low income settings at an early, pre-clinical stage has not yet been investigated.

The few researchers who have measured depression among people coming for testing in low income settings have generally found a high prevalence (45 percent in an Indian sample [6]; 41 percent among pregnant women in South Africa [22]). Depression was not found to be associated with testing positive for HIV/AIDS in either these samples.

The limited data available on HIV-associated cognitive impairment in low income settings generally indicates lower cognitive functioning among seropositive participants as compared to seronegative controls [12]. Prevalence estimates of impairment vary- a multicentre WHO survey found impairment among symptomatic individuals of between 13 and 19 percent [21], whereas recent studies carried out in India, China, Uganda and Botswana comparing HIV-positive with HIV-negative controls reported prevalence of between 31 and 56 percent [12, 23].

The aim of the Umeed study was to investigate the relationship between CMD symptoms cognitive functioning and HIV/AIDS among a cohort of people attending a public clinic for HIV-testing. At the time of interview, study participants were not aware of their HIV status. Given the evidence to support a biological pathway between HIV infection and common mental disorder and cognitive impairment, we hypothesised that CMD symptoms and cognitive impairment would predict testing positive for HIV/AIDS among a sample that were not yet aware of the outcome of their test.

Methods

Design

Analysis of cross-sectional data from the “Umeed” cohort is presented here. Participants were recruited at the time of attending for pre-test counselling and testing for HIV/AIDS at Goa Medical College. Structured interviews including questions about demographics, HIV-related factors, as well as measures of CMD symptoms and alcohol and substance misuse were carried out in the clinic setting at the time of attendance for pre-test counselling and testing. Participants were then followed up via routine records in order to obtain HIV status and attendance of post-test counselling data.

In order to test the hypothesis that CMD symptoms and/or cognitive impairment would predict seropositivity among those without knowledge of their HIV status, study participants who reported having previously been tested for HIV/AIDS and who had received a seropositive result were excluded from analyses (n = 57) presented in Tables 1, 2, 3, 4 and 5.

Table 1

Characteristics of the sample

Prevalence n (%)

Total

1874

Male

880

(47.0)

Female

994

(53.0)

Age

18–25

441

(23.5)

26–30

357

(19.1)

31–34

292

(15.6)

35–40

282

(15.0)

41–45

162

(8.6)

46–50

150

(18.0)

51+

190

(10.1)

Language

Hindi

628

(33.5)

Konkani

1178

(62.9)

English

68

(3.6)

Religion

Hindu

1370

(73.1)

Christian

295

(15.7)

Muslim

206

(11.0)

Other

2

(0.1)

State of origin

Goa

1053

(56.1)

Other than Goa

821

(43.8)

Marital status

Married/co-habiting

1315

(70.2)

Widowed

13

(0.7)

Separated/divorced

127

(6.8)

Never married

419

(22.3)

Education

None

335

(17.9)

Primary school

471

(25.1)

Secondary school

915

(48.8)

Further education

153

(8.2)

CMD symptoms

100

(5.3)

Symptoms of major depression

76

(4.05)

Symptoms of generalised anxiety

20

(1.1)

Symptoms of panic

30

(1.6)

Symptoms of major depression + scored more than 5 on GAD-7

51

(2.7)

Symptoms of generalised anxiety + scored more than 5 on PHQ-9

19

(1.0)

Symptoms of panic + scored more than 5 on PHQ-9

27

(1.4)

Abstinent/occasional alcohol use

1636

(87.2)

Harmful alcohol use

240

(12.8)

Cognitive functioning

Delayed recall- Scored below educational norm

427

(22.8)

Verbal fluency- Scored below educational norm

480

(25.6)

Experienced domestic violence in the last 12m

Yes

116

(6.2)

Perpetrated domestic violence in the last 12m

Yes

81

(4.3)

Frequency of social outings, ie. visiting a friend/relative

Often (at least 1/week)

94

(5.0)

Sometimes (at least 1/month)

157

(8.4)

Rarely (less than once 1/month)

922

(49.2)

Never

701

(37.4)

Frequency of having friends/relatives coming to visit

Often (at least 1/week)

112

(6.0)

Sometimes (at least 1/month)

470

(25.0)

Rarely (less than once 1/month)

815

(43.5)

Never

477

(25.5)

Ever experienced hunger due to lack of money

Yes

347

(18.5)

Accompanied to the ICTC

No

695

(37.01)

Plan to disclose HIV/AIDS test results

Yes

1489

(79.5)

No

340

(18.1)

Don’t know

45

(2.4)

Knowledge of HIV prevention

Thorough

1433

(76.5)

Partial/poor

441

(23.5)

Knowledge of HIV transmission

Thorough

576

(30.7)

Partial

698

(37.3)

Poor

600

(32.0)

Internalised stigma v. people living with HIV/AIDS

None

675

(36.0)

Moderate

607

(32.4)

Strong

592

(31.6)

Anticipated stigma if tested positive for HIV/AIDS

None

602

(32.1)

Moderate

511

(27.3)

Strong

761

(40.6)

Ever injected a non-prescription drug

Yes

2

(0.1)

Ever had sex

No

293

15.20

Male who had sex with a man during the last year

Yes

14

0.75

Ever had sex with someone other than your regular partner in last 12m

Yes

225

(12.0)

Ever received cash, gifts or favours in exchange for sex

Yes

33

(1.8)

Ever had sex with someone who was a commercial sex-worker

Yes

90

(4.8)

Has experienced pain/burning with urination

Yes

364

(19.4)

Genital sores

Yes

119

(6.4)

Genital warts

Yes

61

(3.3)

Genital discharge

Yes

327

(17.5)

Believes likely to test positive for HIV/AIDS

Yes

35

(1.9)

Don’t know

478

(25.5)

Have a child or partner who is HIV-positive

Don’t know

106

(5.7)

Yes

106

(5.7)

HIV status

Positive

164

(8.8)

Table 2

Bivariate associations of with testing positive for HIV/AIDS

HIV-positive n (%)

OR (95% CI)

p

Total

164

(8.75)

Demographics

Male

78

(8.86)

1.00

0.97

Female

86

(8.65)

0.97 (0.71–1.34)

Age

18–25

17

(3.85)

1.09 (1.00–1.18)

0.04

26–30

35

(9.80)

31–34

32

(10.96)

35–40

33

(11.70)

41–45

18

(11.11)

46–50

17

(11.33)

51+

12

(6.32)

Language

Hindi

72

(11.46)

1.00

Konkani

91

(7.72)

0.65 (0.47–0.90)

0.01

English

1

(1.47)

0.12 (.0.02–0.85)

0.01

State of origin

Goa

69

(6.55)

1.00

<0.01

Other than Goa

95

(11.57)

1.87 (1.35–2.58)

Marital status

Married/co-habiting

119

(9.05)

1.00

Widowed

23

(18.11)

2.22 (1.36–3.63)

<0.01

Separated/divorced

3

(23.08)

3.01 (0.82–11.13)

0.08

Never married

19

(4.53)

0.48 (0.29–0.79)

<0.01

Education

None

46

(13.73)

0.70 (0.58–0.84)

<0.01

Primary school

44

(9.34)

Secondary school

66

(7.21)

Further education

8

(5.23)

Mental Health and Social Support

No/mild CMD symptoms

147

(8.29)

1.00

<0.01

Moderate/severe CMD symptoms

17

(17.00)

2.27 (1.31–3.93)

Abstinent/occasional alcohol use

137

(8.38)

1.00

0.14

Harmful alcohol use

27

(11.25)

1.39 (0.89–2.14)

Cognitive functioning

2.47 (1.40–4.34)

Delayed recall- Scored above educational norm

117

(8.09)

1.00

Delayed recall- Scored below educational norm

47

(11.01)

1.41 (0.98–2.01)

0.06

Verbal fluency- Scored above educational norm

104

(7.46)

1.00

Verbal fluency- Scored below educational norm

60

(12.50)

1.77 (1.26–2.48)

<0.01

Frequency of social outings, ie. visiting a friend/relative

Often (at least 1/week)

3

(3.19)

1.53 (1.25–1.88)

<0.01

Sometimes (at least 1/month)

14

(8.92)

Rarely (less than once 1/month)

56

(6.07)

Never

91

(12.98)

Frequency of having friends/relatives coming to visit

Often (at least 1/week)

8

(7.14)

1.38 (1.14–1.66)

<0.01

Sometimes (at least 1/month)

34

(7.23)

Rarely (less than once 1/month)

56

(6.87)

Never

66

(13.84)

Ever experienced hunger due to lack of money

No

112

(7.33)

1.00

<0.01

Yes

52

(14.99)

2.23 (1.56–3.17)

Plan to disclose HIV/AIDS test results

Yes

116

(7.79)

1.00

No

44

(12.94)

1.76 (1.22–2.55)

<0.01

Don’t know

4

(8.89)

1.15 (0.41–3.28)

0.79

Ever had sex

No

12

(4.10)

1.00

<0.01

Yes

152

(9.61)

2.49 (1.36–4.55)

<0.01

Ever had sex with someone other than your regular partner in last 12m

No

136

(8.25)

1.00

0.04

Yes

28

(12.44)

1.58 (1.02–2.44)

Ever had sex in exchange for money, favours or gifts

No

157

(8.53)

1.00

0.01

Yes

7

(21.21)

2.89 (1.23–6.77)

Ever had genital warts

No

153

(8.44)

1.00

0.01

Yes

11

(18.03)

2.39 (1.22–4.69)

Believes likely to test positive for HIV/AIDS

No

72

(5.29)

1.00

<0.01

Don’t know

78

(16.32)

3.49 (2.47–4.93)

Yes

14

(40.00)

11.94 (5.72–24.91)

Have a child or partner who is HIV-positive

No

103

(6.20)

1.00

Don’t know

18

(16.82)

3.06 (1.77–5.29)

<0.01

Yes

43

(40.57)

10.32 (6.54–16.30)

<0.01

Table 3

Multivariate models adjusting for confounders of association between CMD symptoms and testing seropositive

Setting

Goa, the smallest Indian state by area, is situated on the west coast between Maharashtra and Karnataka and has a population of 1.34 millions (Government of Goa, 2010). For HIV/AIDS surveillance, Goa is divided into two districts: the north is described as one of India’s high prevalence districts, with more than one percent prevalence among women at antenatal care. The south is medium prevalence, with more than five percent prevalence found among those attending STI clinics (high risk group) (UNAIDS, 2008).

Recruitment and measures

Participants were recruited at the time of attending the largest public Integrated Counselling & Testing Centre (ICTC) for pre-test counselling and testing. In 2008, 20.8 percent of attendees were “walk-in”, self-referrals, whilst the majority of people tested attended upon the recommendation of a Doctor (Goa State AIDS Control Society, 2012). Doctors refer participants for testing for a variety of reasons, including: unexplained or suspected HIV-related symptoms, pre-operative tests. Self-referrals include those who believe themselves to be at high-risk as well as those undergoing pre-marital tests or testing before going to work abroad. Potential participants were informed about the study by trained research assistants; consent for participation and data linkage with test results was sought. The study was approved by local and international research ethics committees (Sangath and KCL).

Questionnaires, administered by research assistants using palmtop computers were carried out at the time of participants coming for testing. In order to maximise privacy and quietness, interviews were carried out in purpose-built temporary cabins situated in the clinic reception area. People attending the ICTC for pre-test counselling and testing for HIV/AIDS were eligible to participate if they met the following inclusion criteria: demonstration of capacity- understanding the aims of the study and demands of participation and able to give informed consent; fluent in one of three local languages (Konkani, Hindi & English); aged more than eighteen years of age. Questions relating to demographics, HIV-related behaviours, beliefs and knowledge (transmission and prevention knowledge, disclosure plans, sexual behaviour, knowledge and symptoms of sexually transmitted infections) and measures of mental health were included in baseline interviews.

In order to access free-of-charge antiretroviral treatment services, it is necessary to present a test certificate from a state-run testing centre. Therefore, testing in the private sector, followed by re-testing at a public testing centre is relatively common. Participants were therefore asked if they had previously undertaken a HIV-test; those who had received test results were asked to disclose the result to interviewers.

CMD and alcohol use

A modified version of the Patient Health Questionnaire, the brief PHQ-9, in combination with the 7-item Generalised Anxiety Disorder scale (GAD-7), plus the panic disorder module [24] were included in the baseline questionnaire to measure symptoms of depression, anxiety and panic. In a study comparing the sensitivity and specificity of five screeners for CMD in primary care which carried out in Goa, the PHQ was one of five instruments to achieve an AUC from ROC analysis of at least 0.80 (PHQ AUC = 0.84) [25]. In Umeed, as recommended by Spitzer et al. [24], a cut-off of 10 was used as an indicator for symptoms of major depression. A cut-off of 10 was used to indicate symptoms of severe generalised anxiety [26]. Participants reporting “yes” to each of the first four questions relating to anxiety attacks were indicated as panic disorder cases in the Umeed study. At the time of conducting the study, there were no measures of anxiety symptoms that had been validated in a local HIV-affected population. Therefore, we decided to use brief measures that showed good validity in primary care populations elsewhere. Given the evidence to support distinctive diagnostic categories of depression and anxiety [27–29], participants identified as having symptoms of major depression and/or generalised anxiety disorder and/or panic disorder were categorised as having common mental disorder during analysis. “CMD symptoms” does not refer to a clinical diagnosis but to the result of the screening procedure used in this epidemiological study.

The AUDIT is a 10 item questionnaire designed to measure medium (cut-off of eight) and high levels (cut-off of 16) of alcohol problems (WHO 2001). The instrument has been widely used in India ie. [30, 31] and in studies conducted in Goa [32, 33]. A recent validity study conducted in Goa demonstrated good sensitivity and specificity for the AUDIT, with an area under the curve of more than 0.80 [34]. For analysis, participants were categorised as hazardous drinkers if they scored above eight.

Cognitive functioning

Two measures of cognitive functioning were included in the Umeed questionnaire: word list learning (assessing memory) and animal naming (measuring verbal fluency, an aspect of executive functioning, known to be a common deficit in people living with HIV/AIDS- [35]). The terms “low cognitive functioning” and “cognitive deficits” apply to the two domains tested only. Due to the broader aims of Umeed (investigating impact of psychological factors upon access to care) and the practicalities of measuring cognition in a busy clinic setting, we used brief, simple screeners to measure domains that may be impacted by HIV and that were most likely to be implicated in determining access to services.

For the word list learning test, interviewers read out a ten word list (adapted for use in India- [36]) three times. Participants were then asked to recite the list of words after each reading and finally requested to recall words after another section of the questionnaire had been completed. The final total recalled was recorded. For the animal naming test, participants were asked to tell the interviewer as many different types of animals as they could recall during one minute.

These tests originate from the Consortium to Establish a Registry of Alzheimer’s Disease (CERAD) test battery and have been validated among an older population in Goa as part of the validation of a cross-cultural diagnostic instrument for dementia [37]. Normative data was available, in the form of education-specific norms derived from the 10/66 study data for the youngest of the older age-group (60–64 years). Education-specific cut-points for possible cognitive impairment at 1.5 standard deviations below the norms were used in the Umeed study as indicators of low cognitive function.

Outcome measures

Outcome data was collected from routine clinical records maintained by ICTC staff by an Umeed team member who was not involved in baseline data collection. HIV status and date of attendance of post-test counselling (if attended) was extracted from ICTC records. Study participants records were identified using the unique identifier assigned to participants by counsellors at pre-test counselling.

Analysis

Bivariate analysis was carried out. chi-squared tests were used to test differences between distribution of HIV status outcome between categories of a) hypothesised exposures of interest (common mental disorder, cognitive functioning) and b) potential demographic, HIV-related and psychosocial confounders. Mantel Haenszel odds ratios comparing odds of testing positive for HIV among exposure categories found to be associated with seropositivity in chi-squared analyses are presented in Table 1 with 95 percent confidence intervals.

Where there was evidence from bivariate analysis of an association between exposures of interest and testing positive for HIV/AIDS, multivariate analysis was carried out to further test the hypotheses that CMD symptoms and cognitive impairment would predict seropositivity. Exposures of interest were entered singly into logistic regression models. Potential confounders were then entered one-by-one. Criteria for inclusion in final models were: a) variables considered a priori confounders (for example, association of age with cognitive functioning); or b) variables selected using a “change in estimate” method ie. those that resulted in a significant change in the effect of exposure of interest upon outcome (more than 10 percent change in odds ratio).

Results

Characteristics of the sample

As described in Table 1, 8.8 percent of the sample tested seropositive. The majority of the sample were female (53.0 percent); the mean age of participants was 35 years. Almost three quarters were Hindu (73.0 percent) and the majority were born in Goa (56.1 percent). Most were married (70.2 percent); 25.1 percent had attended up to primary school whilst 17.9 percent had received no education at all. 18.5 percent reported ever having experienced hunger due to lack of money.

The prevalence of CMD symptoms among this sample of people of people coming for testing for HIV/AIDS was 5.3 percent. 12.8 percent of participants reported hazardous alcohol use (26.4 percent among men- not presented). Around a quarter of the sample scored below the educational norm on two cognitive tests of delayed recall (22.8 percent) and verbal fluency (25.6 percent).

Analysis of associations with testing positive for HIV/AIDS

As described in Table 2, in bivariate analysis, CMD symptoms and scoring below the educational norm on verbal fluency test were associated with testing positive (OR = 2.27, 1.31-3.93; OR = 1.77, 1.26-2.48, respectively). There was a trend towards an association between scoring below educational norm on the test of delayed recall and seropositivity (OR = 1.41, 0.98-2.01). Hazardous alcohol use was not associated with seropositivity.

All variables found to be associated with testing positive are presented in Table 2. Sociodemographic variables associated with testing positive included: age (OR = 1.09, 1.00-1.18), language (those speaking Konkani or English were less likely to test positive than those speaking Hindi: OR = 0.65, 0.47-0.90; OR = 0.12, 0.02-0.85, respectively), being born outside of Goa (OR = 1.87, 1.35-2.58), being widowed (OR = 2.22, 1.36-3.63), having experienced hunger due to lack of money (OR = 2.23, 1.56-3.63). Visiting relatives or friends (or receiving visits) less than once a week was associated with seropositivity (OR = 1.53, 1.25–1.88, OR = 1.38, 1.14-1.66, respectively). Education was associated with a reduced likelihood of testing positive (OR = 0.70, 0.58-0.84).

A number of HIV-related variables were also associated with seropositivity, including: planning not to disclose test results (OR = 1.76, 1.22-2.55), having sex with someone other than a regular partner (OR = 1.58, 1.02-2.44), having sex in exchange for cash, gifts or favours (OR = 2.89, 1.23-6.77), believing it is likely that the test result will be positive (OR = 11.94, 5.72-24.91), having a child/partner who is living with HIV/AIDS (OR = 10.32, 6.54-16.30).

Table 3 shows that, after controlling for the effects of confounders (education, experience of hunger due to lack of money, disclosure plans, genital warts, perceived likelihood of testing positive and verbal fluency), the association between CMD symptoms and seropositivity is no longer statistically significant (AOR = 1.56, 0..86-2.85). As presented in Table 4, the trend towards an association between delayed recall and testing positive is eliminated by the addition of confounding variables (age, education, experience of hunger due to lack of money, perceived likelihood of testing positive, verbal fluency) to the model (AOR = 1.02, 0.68-1.51).

However, as can be seen in Table 5, although the addition of potential confounders of the association between verbal fluency and seropositivity (age, education, language, marital status, CMD symptoms, having a child/partner who is seropositive, perceived likelihood of testing positive) reduced the effect size, in the final model, verbal fluency remains significantly associated with testing positive for HIV/AIDS (AOR = 1.77, 1.27-2.48).

Discussion

The Umeed cohort is the largest study to describe the mental health of people coming for testing for HIV/AIDS in a low income setting. The inclusion of seropositive and seronegative attendees of HIV testing provided us with a unique opportunity to test hypotheses about mental health and HIV status in the absence of the impact of diagnosis and consequent experiences of living with HIV/AIDS upon participant’s mental health. We hypothesised that CMD symptoms and cognitive impairment would be associated with testing positive. Our findings were inconclusive. Although CMD symptoms was strongly associated with testing positive in bivariate analyses, after adjustment for confounders, the effect size of this association was reduced and no longer statistically significant. We found some evidence to support the hypothesised association between low cognitive functioning and seropositivity. Although there was only a bivariate trend towards an association between delayed recall and seropositivity, scoring below education-adjusted norms on the test of verbal fluency (animal naming) was associated with testing positive for HIV/AIDS (AOR = 1.77, 1.27-2.48).

Almost all of the large body of research about HIV/AIDS and CMD in low and middle income settings has been carried out among single groups, with a HIV-positive diagnosis, without comparison with seronegative controls (for example, [5, 38, 39]). A few studies have compared prevalence of depression between seropositive and seronegative groups (ie. [4, 40]). In one of the few studies similar in design to Umeed (a sample of test-seekers in Pune where 45.5 percent subsequently received a positive diagnosis), univariate analyses revealed no evidence of an association between common mental disorder and seropositivity [6]. In the Umeed sample, bivariate analysis revealed a strong association between CMD and testing HIV-positive (OR = 2.27, 1.31-3.92). However, after the gradual introduction of covariates into the model, the effect size was reduced and no longer statistically significant (AOR = 1.56, 0.86-2.85).

Although the multivariate analysis presented in Table 3 demonstrates that the association between CMD symptoms and seropositivity was partially confounded by sociodemographic and HIV-related covariates, we should be cautious before interpreting these findings as a demonstration that there was no true association between CMD symptoms and seropositivity. As indicated by the relatively wide confidence intervals presented in Table 3, the low prevalence of both CMD and seropositivity among Umeed participants (and particularly in the sub-sample used for this analysis) resulted in reduced power to detect an association, therefore we cannot rule out the existence of a true association between CMD and seropositivity.

As described, the prevalence of CMD symptoms identified among the Umeed sample was much lower than that reported among the two other samples of people coming for testing in low and middle income settings described in the literature. The relatively low prevalence of HIV/AIDS measured in Umeed as compared to these other samples (45.5% in India; 40.9% among pregnant women in South Africa) may help to explain the difference in prevalence of CMD symptoms. The Umeed sample is heterogeneous and includes participants at high and low-risk of testing positive. Therefore, it is plausible that the overall prevalence in the Umeed sample may be more similar to that found in the local community [41], rather than that identified in primary care [42]. Without further research among people coming for testing in similar settings, it is difficult to contextualise our findings further. Of course, the possibility that our mode of measurement of CMD symptoms may have contributed to the low reported prevalence of CMD symptoms cannot be ruled out. Although the PHQ-9 is commonly used in Western settings, the lack of validation of cut-points for use among HIV-affected populations in low income settings may have had an impact upon the low prevalence of common mental disorder identified in the Umeed cohort. As described, all interviews were carried out in temporary, private cabins. All participants were given detailed information about CMD symptoms and the aims and objectives of the study; the PHQ has been found to be valid among a Goan sample of people attending primary care. However, the possibility remains that using the PHQ-9 immediately prior to testing in the busy clinic setting may have inhibited participants willingness to disclose potentially sensitive information about symptoms of anxiety and depression. Our analysis demonstrated a high degree of co-morbidity of symptoms of anxiety and depression within our sample (of those scoring >10 on the GAD-7, 75 percent scored >10 on the PHQ-9; of those scoring >10 on the PHQ-9, 20 percent scored >10 on the GAD-7 and 47.4 percent scored between 5 and 10 on the GAD-7), thus supporting the dichotomous “symptoms of CMD” variable used in our analysis.

Given that HIV/AIDS is associated with morbidity, stigma and discrimination [43, 44], poverty [45] and mortality [46, 47], it is reasonable to expect that living with the disease contributes greatly to the prevalence of CMD among people with HIV/AIDS. However, there is evidence from neurological research to suggest that the inflammatory response that contributes to the neuronal loss that causes HIV-associated cognitive impairment may also trigger cytokine-induced depression [20]. Recent research suggests that even in the absence of other symptoms of depression and cognitive impairment, HIV-related damage to white matter may be associated with symptoms of apathy (“reduced self-initiated cognitive, emotional and behavioural activity”) [48]. In addition to social and environmental risk factors associated with their disease status, people living with HIV/AIDS (and other chronic conditions) may have a biological vulnerability to the development of depressive symptoms [46]. Although evidence suggesting that CMD may be associated with risky behaviour [47, 49] means that a reverse relationship (pre-existing depression promoting sexual risk-taking and acquisition of HIV) cannot be ruled out, presence of genital warts and perception of HIV-risk were the only sexual risk-related variables, that confounded the association between CMD symptoms and seropositivity- therefore this pathway seems unlikely.

The Umeed finding that low scores on the test of verbal fluency were associated with seropositivity corresponds with the results of a recent meta-analysis that revealed a statistically significant deficit in mean scores on tests of verbal fluency among people living with HIV/AIDS, as compared to HIV-negative controls (−0.31, −0.44 to −0.18) [50]. In the only study to compare verbal fluency between seropositive individuals and seronegative controls in India, although HIV-positive individuals differed in other language-related domains (phonemic fluency, verbal working memory and verbal learning and memory); differences in animal naming fluency were not statistically significant [51]. Similarly, statistically significant deficits in verbal learning and memory were identified between seropositive individuals and seronegative controls in a previous south Indian study [52].

Neurological evidence supports the presence of cognitive deficits early in the course of the disease [12]. Both cognitive domains measured in Umeed (category fluency and verbal learning and memory) are consistent with diffuse or frontostriatal pathology, both of which may be characteristic of the effects of HIV-1 on the brain [50]. There is now a growing body of evidence on the cognitive profile of people living with HIV/AIDS in low income settings, including India [52]. Whereas small studies with detailed neuropsychological assessments tend to have stringent exclusion criteria which may limit the generalisability of findings, in Umeed, exclusion criteria were limited, meaning that our sample was likely to be more representative of the base population. The aim of Umeed was to measure cognitive functioning in the selected domains most likely to have an impact upon linkage to care and adherence and to examine whether these were associated with testing positive. The animal naming test of category fluency and the word list learning test of verbal learning and memory were selected as appropriate measures that would be relatively quick and simple for trained research assistants to administer among a large cohort of participants in a busy clinic setting.

The Umeed study design had several other methodological strengths. Unlike other studies that have investigated mental health and HIV/AIDS in a low income setting, the Umeed study was carried out among a large sample that included both seropositive and seronegative individuals recruited prior to diagnosis. Thus we were able to test hypotheses that CMD symptoms, cognitive functioning would be associated with seropositivity independently of the effects of diagnosis. Blind recruitment of seropositive and seronegative participants from the same clinic helped to ensure comparability of the two groups and reduced risk of selection bias. There was evidence from previous research to support the validity of measures of CMD and cognitive functioning among Goan populations.

However, there were also limitations. Due to ethical considerations, those who were potentially most unwell: (ie. unable to participate in 30 minute interview without experiencing undue distress or discomfort or lacking capacity to understand aims, participation demands and give informed, voluntary consent) were excluded from our sample (n = 102). Therefore, estimates for CMD symptoms, low cognitive functioning and seropositivity are likely to be lower than the true prevalence among people coming for testing for HIV/AIDS in Goa Medical College. Subsequently, this may have contributed to smaller effect sizes for associations between mental health exposures and HIV status.

It is possible that social desirability bias may have had an impact upon our measures of risk-taking behaviours. Reported risk-taking behaviours were fairly low relative to prevalence of HIV: 0.1% reported injecting drugs, 0.8% of men reported having had sex with other men, 1.9% reported having received money or gifts in exchange for sex; 5% reported having sex with a sex worker and 12.6% reported having sex with someone other than a regular partner in the last year. This may have limited our ability to control for the confounding effects of risk-taking behaviours upon observed associations between common mental disorder/low cognitive functioning and HIV status.

There were other limitations to our approach to cognitive testing. The cognitive screening instruments used in Umeed were chosen because they measured the domains most likely to have an impact upon access to care. The education-adjusted norms for cognitive functioning have not been validated among the younger Goan population or in the context of HIV/AIDS. We were unable to discriminate between sub-cortical deficits commonly caused by HIV and cognitive deficits with other causes (educational deprivation, mental sub-normality, language issues etc.), Unmeasured confounding is a possibility. Reverse causality cannot be ruled out. Low cognitive test scores may have been caused by a factor other than HIV that was associated with HIV-risk and acquisition. There is evidence to support a link between heavy alcohol use and poor cognitive functioning [53], as well as an association between alcohol-related impairment and reduced perception of sexual-risk [54]. However, given that we found little evidence of any association between alcohol use and HIV status, it seems unlikely that this pathway explains the observed relationship between low cognitive functioning and testing positive for HIV/AIDS.

Lack of detection of an association between delayed recall and seropositivity may be due to error in the measurement of delayed recall in Umeed. Although every effort was made to carry out interviews in an environment conducive to cognitive testing, it is possible that noise and interruptions to interviews had an impact, particularly on measurement of delayed recall, the more complex of the two cognitive tests. Measurement error may have led to some random misclassification of delayed recall test results, which may have contributed to masking a true association between delayed recall test results and testing positive.

Conclusion

Umeed study findings provide tentative evidence that prior to knowledge of HIV status, low cognitive test scores (and perhaps CMD), may be associated with seropositivity among people coming for HIV-testing. Our findings suggest that a biological mechanism may contribute to the high prevalence of CMD and poor cognitive functioning commonly found among people living with HIV/AIDS. Impaired cognitive functioning and depression-like symptoms may be the result of the same underlying neurological damage caused by the presence of HIV in the brain. CMD and cognitive impairment may overlap to a greater extent than previously assumed. In order to clarify the relationship between CMD, cognitive impairment and HIV/AIDS, further research among pre-diagnosis samples is necessary. It would be helpful to include detailed assessments of key cognitive domains. If a closer interrelationship between cognitive functioning and CMD among people living with HIV/AIDS is demonstrated, this may have implications for the way in which we measure and treat CMD and cognitive functioning among people living with HIV/AIDS. It will be important to explore the possibility of early behavioural markers (such as apathy) as predictors of later cognitive decline. Depending on the outcome of future research, routine integration of screening for both CMD and cognitive deficits within Voluntary Counselling and Testing should be considered.

Declarations

Acknowledgements

The Umeed study was funded by grants from Psychiatry Research Trust and Parkes Foundation. We are grateful to National AIDS Control Organisation for approving the Umeed study. We are grateful to the Umeed research team: Priti Girap, Supriya Harmalkar, Rakesh Kumar. Thanks also to Neerja Chowdhary, Maryam Shahmanesh, Smita Naik and the staff at the Goa Medical College Integrated Counselling and Testing Centre. And thanks to all those who took part in the study.

Pre-publication history

Copyright

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